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本文主要研究一下Elasticsearch的FixedExecutorBuilder

FixedExecutorBuilder

elasticsearch-7.0.1/server/src/main/java/org/elasticsearch/threadpool/FixedExecutorBuilder.java

public final class FixedExecutorBuilder extends ExecutorBuilder<FixedExecutorBuilder.FixedExecutorSettings> {

    private final Setting<Integer> sizeSetting;
    private final Setting<Integer> queueSizeSetting;

    /**
     * Construct a fixed executor builder; the settings will have the key prefix "thread_pool." followed by the executor name.
     *
     * @param settings  the node-level settings
     * @param name      the name of the executor
     * @param size      the fixed number of threads
     * @param queueSize the size of the backing queue, -1 for unbounded
     */
    FixedExecutorBuilder(final Settings settings, final String name, final int size, final int queueSize) {
        this(settings, name, size, queueSize, "thread_pool." + name);
    }

    /**
     * Construct a fixed executor builder.
     *
     * @param settings  the node-level settings
     * @param name      the name of the executor
     * @param size      the fixed number of threads
     * @param queueSize the size of the backing queue, -1 for unbounded
     * @param prefix    the prefix for the settings keys
     */
    public FixedExecutorBuilder(final Settings settings, final String name, final int size, final int queueSize, final String prefix) {
        super(name);
        final String sizeKey = settingsKey(prefix, "size");
        this.sizeSetting =
                new Setting<>(
                        sizeKey,
                        s -> Integer.toString(size),
                        s -> Setting.parseInt(s, 1, applyHardSizeLimit(settings, name), sizeKey),
                        Setting.Property.NodeScope);
        final String queueSizeKey = settingsKey(prefix, "queue_size");
        this.queueSizeSetting = Setting.intSetting(queueSizeKey, queueSize, Setting.Property.NodeScope);
    }

    @Override
    public List<Setting<?>> getRegisteredSettings() {
        return Arrays.asList(sizeSetting, queueSizeSetting);
    }

    @Override
    FixedExecutorSettings getSettings(Settings settings) {
        final String nodeName = Node.NODE_NAME_SETTING.get(settings);
        final int size = sizeSetting.get(settings);
        final int queueSize = queueSizeSetting.get(settings);
        return new FixedExecutorSettings(nodeName, size, queueSize);
    }

    @Override
    ThreadPool.ExecutorHolder build(final FixedExecutorSettings settings, final ThreadContext threadContext) {
        int size = settings.size;
        int queueSize = settings.queueSize;
        final ThreadFactory threadFactory = EsExecutors.daemonThreadFactory(EsExecutors.threadName(settings.nodeName, name()));
        final ExecutorService executor =
                EsExecutors.newFixed(settings.nodeName + "/" + name(), size, queueSize, threadFactory, threadContext);
        final ThreadPool.Info info =
            new ThreadPool.Info(name(), ThreadPool.ThreadPoolType.FIXED, size, size, null, queueSize < 0 ? null : new SizeValue(queueSize));
        return new ThreadPool.ExecutorHolder(executor, info);
    }

    @Override
    String formatInfo(ThreadPool.Info info) {
        return String.format(
            Locale.ROOT,
            "name [%s], size [%d], queue size [%s]",
            info.getName(),
            info.getMax(),
            info.getQueueSize() == null ? "unbounded" : info.getQueueSize());
    }

    static class FixedExecutorSettings extends ExecutorBuilder.ExecutorSettings {

        private final int size;
        private final int queueSize;

        FixedExecutorSettings(final String nodeName, final int size, final int queueSize) {
            super(nodeName);
            this.size = size;
            this.queueSize = queueSize;
        }

    }

}
  • FixedExecutorBuilder继承了ExecutorBuilder,其ExecutorSettings类型为FixedExecutorSettings,它定义size及queueSize两个属性;其build方法使用EsExecutors.newFixed创建ExecutorService,同时还创建了ThreadPool.Info,最后返回包含二者的ThreadPool.ExecutorHolder

EsExecutors.newFixed

elasticsearch-7.0.1/server/src/main/java/org/elasticsearch/common/util/concurrent/EsExecutors.java

public class EsExecutors {

    //......

    public static EsThreadPoolExecutor newFixed(String name, int size, int queueCapacity,
                                                ThreadFactory threadFactory, ThreadContext contextHolder) {
        BlockingQueue<Runnable> queue;
        if (queueCapacity < 0) {
            queue = ConcurrentCollections.newBlockingQueue();
        } else {
            queue = new SizeBlockingQueue<>(ConcurrentCollections.<Runnable>newBlockingQueue(), queueCapacity);
        }
        return new EsThreadPoolExecutor(name, size, size, 0, TimeUnit.MILLISECONDS,
            queue, threadFactory, new EsAbortPolicy(), contextHolder);
    }

    //......
}
  • EsExecutors.newFixed判断queueCapacity是否小于0,小于0则使用ConcurrentCollections.newBlockingQueue()创建BlockingQueue,否则创建SizeBlockingQueue;最后创建的是EsThreadPoolExecutor

实例

elasticsearch-7.0.1/server/src/main/java/org/elasticsearch/threadpool/ThreadPool.java

public class ThreadPool implements Scheduler, Closeable {
    //......

    public ThreadPool(final Settings settings, final ExecutorBuilder<?>... customBuilders) {
        assert Node.NODE_NAME_SETTING.exists(settings);

        final Map<String, ExecutorBuilder> builders = new HashMap<>();
        final int availableProcessors = EsExecutors.numberOfProcessors(settings);
        final int halfProcMaxAt5 = halfNumberOfProcessorsMaxFive(availableProcessors);
        final int halfProcMaxAt10 = halfNumberOfProcessorsMaxTen(availableProcessors);
        final int genericThreadPoolMax = boundedBy(4 * availableProcessors, 128, 512);
        builders.put(Names.GENERIC, new ScalingExecutorBuilder(Names.GENERIC, 4, genericThreadPoolMax, TimeValue.timeValueSeconds(30)));
        builders.put(Names.WRITE, new FixedExecutorBuilder(settings, Names.WRITE, availableProcessors, 200));
        builders.put(Names.GET, new FixedExecutorBuilder(settings, Names.GET, availableProcessors, 1000));
        builders.put(Names.ANALYZE, new FixedExecutorBuilder(settings, Names.ANALYZE, 1, 16));
        builders.put(Names.SEARCH, new AutoQueueAdjustingExecutorBuilder(settings,
                        Names.SEARCH, searchThreadPoolSize(availableProcessors), 1000, 1000, 1000, 2000));
        builders.put(Names.SEARCH_THROTTLED, new AutoQueueAdjustingExecutorBuilder(settings,
            Names.SEARCH_THROTTLED, 1, 100, 100, 100, 200));
        builders.put(Names.MANAGEMENT, new ScalingExecutorBuilder(Names.MANAGEMENT, 1, 5, TimeValue.timeValueMinutes(5)));
        // no queue as this means clients will need to handle rejections on listener queue even if the operation succeeded
        // the assumption here is that the listeners should be very lightweight on the listeners side
        builders.put(Names.LISTENER, new FixedExecutorBuilder(settings, Names.LISTENER, halfProcMaxAt10, -1));
        builders.put(Names.FLUSH, new ScalingExecutorBuilder(Names.FLUSH, 1, halfProcMaxAt5, TimeValue.timeValueMinutes(5)));
        builders.put(Names.REFRESH, new ScalingExecutorBuilder(Names.REFRESH, 1, halfProcMaxAt10, TimeValue.timeValueMinutes(5)));
        builders.put(Names.WARMER, new ScalingExecutorBuilder(Names.WARMER, 1, halfProcMaxAt5, TimeValue.timeValueMinutes(5)));
        builders.put(Names.SNAPSHOT, new ScalingExecutorBuilder(Names.SNAPSHOT, 1, halfProcMaxAt5, TimeValue.timeValueMinutes(5)));
        builders.put(Names.FETCH_SHARD_STARTED,
                new ScalingExecutorBuilder(Names.FETCH_SHARD_STARTED, 1, 2 * availableProcessors, TimeValue.timeValueMinutes(5)));
        builders.put(Names.FORCE_MERGE, new FixedExecutorBuilder(settings, Names.FORCE_MERGE, 1, -1));
        builders.put(Names.FETCH_SHARD_STORE,
                new ScalingExecutorBuilder(Names.FETCH_SHARD_STORE, 1, 2 * availableProcessors, TimeValue.timeValueMinutes(5)));
        for (final ExecutorBuilder<?> builder : customBuilders) {
            if (builders.containsKey(builder.name())) {
                throw new IllegalArgumentException("builder with name [" + builder.name() + "] already exists");
            }
            builders.put(builder.name(), builder);
        }
        this.builders = Collections.unmodifiableMap(builders);

        threadContext = new ThreadContext(settings);

        final Map<String, ExecutorHolder> executors = new HashMap<>();
        for (final Map.Entry<String, ExecutorBuilder> entry : builders.entrySet()) {
            final ExecutorBuilder.ExecutorSettings executorSettings = entry.getValue().getSettings(settings);
            final ExecutorHolder executorHolder = entry.getValue().build(executorSettings, threadContext);
            if (executors.containsKey(executorHolder.info.getName())) {
                throw new IllegalStateException("duplicate executors with name [" + executorHolder.info.getName() + "] registered");
            }
            logger.debug("created thread pool: {}", entry.getValue().formatInfo(executorHolder.info));
            executors.put(entry.getKey(), executorHolder);
        }

        executors.put(Names.SAME, new ExecutorHolder(DIRECT_EXECUTOR, new Info(Names.SAME, ThreadPoolType.DIRECT)));
        this.executors = unmodifiableMap(executors);

        final List<Info> infos =
                executors
                        .values()
                        .stream()
                        .filter(holder -> holder.info.getName().equals("same") == false)
                        .map(holder -> holder.info)
                        .collect(Collectors.toList());
        this.threadPoolInfo = new ThreadPoolInfo(infos);
        this.scheduler = Scheduler.initScheduler(settings);
        TimeValue estimatedTimeInterval = ESTIMATED_TIME_INTERVAL_SETTING.get(settings);
        this.cachedTimeThread = new CachedTimeThread(EsExecutors.threadName(settings, "[timer]"), estimatedTimeInterval.millis());
        this.cachedTimeThread.start();
    }

    //......
}
  • ThreadPool的构造器给Names.WRITE、Names.GET、Names.ANALYZE、Names.LISTENER、Names.FORCE_MERGE分配了FixedExecutorBuilder

小结

FixedExecutorBuilder继承了ExecutorBuilder,其ExecutorSettings类型为FixedExecutorSettings,它定义size及queueSize两个属性;其build方法使用EsExecutors.newFixed创建ExecutorService,同时还创建了ThreadPool.Info,最后返回包含二者的ThreadPool.ExecutorHolder

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